Telephony and telegraphy



March 3, 1931. P. JOLY 1,795,212

TELEPHONY AND TELEGRAPHY Filed Sept. 22, 1924 S Sheets-Sheet l JasJar/.55H5 nl rfa/V March 3, 1931. P. .JOLY

TELEPHONY AND TELEGRAPHY Filed Sept. 22, 1924 8 Sheets-Sheet 2Y Zig-. CENT/P44. r5.4 EP//o/vf fla/4165 Hum fd y? an 3, 1931. P. JOLY 1,795,212

TEPHoNY AND TELEGRAPHY Filed Sept. 22, 1924 8 Sheets-Sheet 5 March 3, 1931. P, JOLY TELEPHONY AND TELEGRAPHY Filed sept. 22, V1924 s sheets-sheet 4 Ewa@ l Mardi 3, 1931. P, JOLY y 1,795,212 TELEPHONY AND TELEGRAPHY I Filed sept. 22. 1924 8 sheets-sheet 5 March 3, 1931.- '4

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P. JOLY TELEEHONY 'AND TELEGRAPHY File@ "S'ptv 2'2', 1924 sheets-sheet 7 March 3, 1931. p. J-QLY- 1,795,212

TELEPHONY `AND TELEGRAPHY mad sept. 22, 1924 8 sheets-sheet a 4' Slow +r: release Patented Mar. 3, 17931 VPATENT orrrcl.

PAUL JOLY, OF PARIS, FRANCE TELEPHONY AND TELEGRAPHY Application iled September 22, 1924, Serial No. 739,106, and in France September 29, 1923.

The means which form the subject of the present invention permit a telephone subscriber who is provided with ordinary telegraph apparatus to exchange communications with any subscriber who is connected to the telephone network and having the same telephonie` apparatus. Certain. improvements moreover permit duplex transmission.

The invention is capable of many modifications occasioned by the various ways of supplying current, the type of transmission (simplex orduplex), and by the manner of transmitting and receiving adopted by the subscribers.

The working principle, whether it concerns the amplifyingv relay arrangements situated over a special double contact string, the special position which will bel termed a mixed position, or the receiving or transmitting means which are situated at the subscribers stations, is based upon the use, while still rendering telephonie communication possible, of induced or displacement currents,

` '25 (i. e. Where there are inductances and condensers at'the exchange in place of trans-,-

formers), these currents being produced by breaking and making the circuit carrying a current necessary for the transmission of the telegraph signals for actuating, either Adirectly or through transformers, (these latter being telephonie translators whose windings are suitably associated and connected), sensitive and rapid relays (shunted or otherwise) 5 which control the make and the break of av current in a circuit over which signals transmitted by the transmitting station may be directions which currents induce in their turn Figures 3 and 4L show details, Figure 5 ar-o rangements of inductance bobbins, Figures 6 to 19 modifications of the mixed position arrangements, Figures 20 to 23 modifications ofthe arrangements at the subscribers stations, Figure 24 an arrangement for changing telephony to telegraphy and vice versa,

Figure 25 an arrangement whereby automatic telephonie reception can also be obtained, Figures 26 to 29 current supply arrangements from the central exchange for receiving and Y transmitting.

auxiliary central vexchange telephonie linesSo over members 3, or 3 at the telephone exchanges, which may be translaters, condensers and inductances, currents induced in opposite at the secondary of transformer 5 or 5', transi 85 formers having two identical primaries but lwith `opposed electro magnetic action Vand with a secondary with suitable transformation relation, working or normal currents which bring the'armature of the Vrelay 6 or 6 (sensitive and rapid relay, a Baudet' relay for example) against either its workingor back Contact thus reversingthe current in the lines 4. and 7, or 4c and 7 V(7 and 7 being the equivalent artificial lines respectively to the lines 4 and Ll)L and thus giving use tothe possibility, by suitably selecting the tension of thev batteries 9 and 10, ofreproducmg with any desirable amplification 'the initial Y librium over'lines 4, 4, 7

primary of transformers and 5 is formed.V with two identical windings arranged each formed of batteries 9 and 10 and of'two'of the four suitable resistances 8, are so established that any variation of current effecting equally and simultaneously the two primariesV of transformers 5 and 5 produce no electromagnetic effect upon the core of these transformers and therefore no induced electro-l motive force in their secondary. The current reversals produced over line 4 or 4 by the operation of the relay 6 or 6 will have no effect upon the relay 6 or 6 but will induce through th-e members 3 or 3 currents which are received at the receiving` station i or 1 in a sensitive and rapid relay Baudot relay) suitably arranged and controlling, directly or otherwise, the receiving apparatus.

The members 5, 5, (i, 6, 7, 7, 8, 9 and 10 form a portion of a special position in a telephonie exchange which is termed mixed position (manual or automatic) and may be connected either manually as by the aid of double Contact strings'or automatically to an exchange or to a subscribeifs station. rlhe signalling members, call, operators enquiry ring off', etc., may existeither in the usuall or in a slightly modified form for adaption tothe new conditions of working the circuits.

In order to obtain a more'complete equi- 7 preferably each upon a line wire at the beginning of each line, as shown in the diagrammatic Figure 2 which shows one only of the transformers 5 or 5. y

If it bel desired to have control of the telegraphic communications exchanged, aA

serted in the line 7, or between the commonY pole and the lines 4 and 7 a transmission from station 1.

The resistances 8 when employed have a triple object:

1. To suppress arcing at the contact-s.

signal 2. To form the two branches of a bridge,- whose two other branches are formed by the batteries 9 and 1() which may or may not have suitable inductances or resistances in series, and whose diagonal is foi-ined by lines 4 and 7 or 4 and 7 in parallel.

3; To allow the circuits 4 and 4', over which the induced currents are propagated, to close.

The arrangement isl adaptable for telephoning by merely arranging identical inductances 2() at each pole of batteries 9 and 10, as shown in Figure 5, or by adapting one of the arrangements described under the VIII hereinafter:

The modifica-tions to be described which are applicable to the specification position or mixed position77 are numbered I to IX.

I. rlhe resistances 8 shown in Figure 1 may be eliminated.

ll. The batteries 9 and 10 in the same figure' or in Figure 2 may be connected in various manners according to the different manners of supplying circuits 4 andl4 with current. Thus it may normally be luseless or it may be necessaryto supply one of such circuits or two thereof withcurrent; in this latter case this may be effected by abattery situated either at the telephone exchange or at the mixed position.

These different cases determine the connections to be effected between lines and battery on the one hand, or the contacts and relay armatures on the other hand, and there are as many cases as there are arrangements.

The break points of thecircuits controlled by the' relays are at one of the leads of a primary winding of a differential transformer and such lead may be connected directly `either to the corresponding artificial line or to the other primary winding.

VThe batteri-es 9 and 10, in particular, may be connected to the contacts of relays 6 and 6:

(a) Either for feeding lines 4 and 4 through the back contact or by the working Contact.

(b) Or for alone feeding these lines either through the back contact or through the working contact, the other pole of th-e batteries being connected to a point common to the real and artificial lines while the other contact ofthe relay may:

(a) Either remain isolated.`

(b) 0r be connected to the other point common to the real and artificial lin-es.

In many cases a single batt-ery can alone 3e used, battery 10 for example. lt may then be connected to the contacts and'lines according to the modifications above set out.

The arrangement shown in Figure 6 is di.- rectly derived from the arrangement shown in Figure 1 or Figure Q-resistances 8 have beeneliininated, and as the circuits are su)- posed to'be normally without current, one

` battery only is employedwhich supplies the y working currents.

Explanation of the 'working andlof the function of transformers and 5 and of the relays 6 and 6 is the same as that given in duced.

For the sake of shortness explanations already given will not be repeated in the following description of modifications.

All `the modifications of the connections given at the commencement under IIvwill be considered and applied to each of the modifications of arrangements which have been above described. They will not be repeated. My description will be in reference to Figures 7 to 17, which show arrangements relating to the transformer relays, the artiiiciallines, and break points of the lines and connections between batteries, lines, contacts and relay armatures.V In many cases moreover different types are employed. i

III. The duplex types to he described are capable by means of a slight modification of being employedv in the simplex current shown in Figure 7. For this purpose the two secondaries of transformers 5 and 5 are placed in series by interpolating a single sensitive and rapid relayr6, in shunt upon each of the two secondaries, and the' symmeti-ical points common to the real lines and to the artificial lines are metallically connected, the break point being between such two metallic connections. This relay controls the breaking and making of the circuit both in lines 4, 4, 7 and 7.

IV. In place of transformers 5 and 5 composed of two differential primary windings` and a single secondary winding, the primary windings may be separated by forming two transformers each having a primary winding and a secondary winding 21, 22, 21 and 22', as illustrated in Figures 8V and 9 which are arrangements corresponding respectivelyy to the arrangement-s shown in Figures 6 and 7.

V. Sensitive and rapid relays may be used in place of transformers, such relays being sliunted by an inductance (transformer windings in particular) over which the inducedv or displaced currents and the working currents have the same effect as over the relays on the secondary windings of the `transformers. For this purpose the relays (with two bobbins) must be suitably formed as differential relays.

In each'of the arrangements hitherto described and in all their modifications there may correspond an arrangement based upon the same working principle as that shown in Figure 1 and Figure 6 but comprising a relay or one of the two bobbins of such relay shunted at such places where the corresponding arrangement comprises a transformer.

J ust as for their equivalentsytypes of arrangements' showing the relative positions and the 'connections of the real and artificial lines of the relays and break points in V,the

lines are given by way'o'f illustration. The

'modifications of the connections indicated under II are just as applicable here as when transformers are employed. Y

In the arrangements shown in Figures 10 to 16, 23, 23 the sensitive and rapid relays are shuiited 'by a. suitable inductance. The diagram shown inv Figure 10 is formed by supposing a modification of the 'arrangement where lines 4 and 4 are normally supplied with current from batteries situated at the telephonie exchanges; the dotted lines may be formed and this thenl allows a battery (9 or A10) to be 'economized In the modification shown in Figure 11 lines 4 and 4 have been supposed te be normally not supplied' with current. In the modification shown in Figure 12 the connections are established by supposing lines 4 and 4 to be normally supplied with current from a batteryrlO situated as regards one line at the end of the line, and as regards the other line at the mixed position.

The arrangement shown in Figure 13 differs from the preceding arrangements in -that there is a fixed connection between V the middle pointsof the relays. Itis suitable where it is unnecessary that lines 4 and 4 should normally be supplied with current; The arrangement shown by the dotted line may be employed where duplex action is not required.- The arrangement shown in Figure 14 is of the same-type as that shown in Figure 13. It shows a modification of the connection whereA lines 4 and 4 are normally supplied with currents by a battery, situated as regards one line at the telephone exchange and as regards the other line at the mixed positionf.

VI. In certain special cases which do not normally require current and where simplex transmission is sufficient, it is possible by rearranging the circuits to obtain the same results with one differential relay only; It

Amay be shunted (as shown in Figure 15) or it may be in series or in derivation upon the secondary of transformers 24 whose. primary windings are in series with one wire of llines 4 and 4 as is shown in Figure 16; In these arrangements the artificial lines are situated as regards the relay or the transformers on the other side of the corresponding real lines.

VII. In certain cases wherelines 4 and 4 are normally unsup'plied with current the arrangements shown in Figure 17 may bev used, 25 and 25 being sensitive and rapid relays employed, either directly or through special transformers, for receiving induced currents or displaced currents fi'owing through lines 4 ande and controllingtheV making and the breaking of the circuits of the retransmission currents over the other line (4 and 4).V Thus an arrangement has been devised, similar to that for telegraphic translations, for the-transmission of telegraphic signals over telephone circuits through transformers or condensers. The inductances 26 and a condenser 27 are provided for ensuring telephonic communication.

VIII; In order to ensure telephonic communication in the various` arrangements hitherto described where the arrangement employed does not of itself ensure it, recourse has been had to inductances. However in place-of pure induct-ances there may be employed:

(a) Either transformers of a. ratio 1/1 whose windings, whether comprising com- ,mon points or not,vare broken or are not broken bycondensers as may be required.

(Z1) Or condensers associated with inductances which may or may not be special 1nductances according as the parts employed have or have not sufficient inductance.

As the circultsof the real and artificial lmes are back circuits they should close each either upon a winding of transformer 28 Figure 18, or as shown in Figure 19 upon inductances 29, the condensers 30 in thislatter case being between the symmetrical points common to the real and artificial lines of the two circuits.

IX. Finally, in order to complete the explanation relating to this first type of modifications, it is well to indicate that according to the arrangement of the line (resistance, the presence of several transformers etc.) it may be necessary to arrange between the subscribers stations either one only of the preceding arrangements described or several of such arrangements which are stop-pcd and form retransmitting relays.

A second object of this invention as has oefore been stated, groups the modifications of` arrangements situated at the subscribers stations. These arrangements may be more or less simple according to the ease ofreception or of transmission it is desired to reserve to the subscriber.

At the receiving station one of the following arrangements may be employed t 1. A rapid and sensitive relay (a` Baudot relay for example) shunted by a. suitable inductance.

2. A transformerprimary whose secondary is closed over a rapid and sensitive relay with or without a resistance in series.

3. A transformer similar to transformer 5 or 5 which necessitates the use of a suitable artificial line fulfilling the same function as line 7 or 7 but permits duplex transmission.

These arrangements may be connected with the aid of alpress button, a switch or other suitable means, which may be automatic vover the line for allowing either reception alone or reception and transmission with local control of transmission.

`Where the receiving apparatus has a high inductance and for the purposefof avoiding sparking at the contacts of the rapid and sensitive receiving relay, which in another case should directly control the receiving apparatus, another relay whose action is not impeded by sparking may be controlled by this relay. This second relay then directly controls the receiving apparatus. The diagrammatic arrangement shown in Figure 3 or that shown in Figure l may also be employed.

In these figures 11 is the sensitive and rapid receiving relay 12 the electro magnet of a receiving apparatus having a high self-induction; 13 is a resistance combined with a condenser 14 for compensating the effect of inductance; 15 is a shunt resistance, 16 the feed battery, 17 two equal resistances, 18 and 19 two equal batteries in series; and R the back contact of relay 11.

(A) The first arrangements illustrated in Figures 2O to 23 can easily be deduced from the arrangements hereinbefore described. Y

rllhe reason therefor is that a subscribers station has a function comparable to that of mixed position but it is simpler because no retransmission is necessary. In principle, in the first modications to be described, the arrangement for a station can be deduced from the mixed position arrangement by dividing up the mixed position arrangement into two parts.

Thus Figures 20, 21, 22, 23, have been deduced from the arrangements shown in Figures G, 8, 10 and 12. In Figures-20, 21, 22, 23,-31 is the transmitting member (switch), 32 the transmitting relay, which may or may not be shunted, 33 the receiving relay which may or may not be shunted, 34 the artificial line balancing the real transmission and receiving circuit; 35 is the receiving member.

The connections indicated in dotted'lines may be substituted for the others; they indicate merely that the transmitting relays may either bel sliunted or placed upon the secondary of a transformer just as the receiving relay ashas already been indicated.

The arrangements shown in Figures 2O and 23 permit duplex transmission with local control with the condition however that there are two telegraphic receiving apparatus controlled each by a relayv 32 or 33. These figures show the case of simplex transmission with automatic local control. The arrangements shown in Figures 21 and 22 do not permit duplex transmission, but allow the control of transmission by reiiexion upon the mixed position, where retransmission at the mixed position is effected simultaneously over lines 4 and 4.

y switch allowing: in one position: 5

(B) In the preceding description it hasA been .supposed that the subscribers` station remains. in the telegraphing position.

In this paragraph switching apparatus is described by which, as in Figure 24, the sub-Vv scrlber can easily pass from the .telegraph.

ing. position vto theI telephoning7 position and vice versa, or which allows, as shown in Figure 25, the exchange of telephonie' or telegrapliic communications and the automatic reception of telegrams in the subscribers absence.

(I) Station in which switching is effected by a key without relay for automatic action (manual switching). Either one 'or two switches may be provided for changing from he telephoning position to the telegraph transmitting or receiving position and vice` versa., and trom this latter position. to the telegraph receiving or transmitting position and vice versa, the subscriberls telegraphic apparatus being brought in action when the switch is iii the telegraphing position.

(II) Station in which switching is eiected by keys and a relayautomatically brought.

into action (semi-automatic switching).

This second station which forms oneof the subjects of the invention is shown diagrammatically in Figure 24. In this ligure 101 and 102 are the line Wires, 103 the telephone hook switch of station 104, 105 the condenser and 106 the station telephone bell, 107 a (a) The setting of relay 108 for bringing 4-the telegraph system in action, for example the motor 109 i'ed Jfrom the sector 110, orit may be the electro-magnet 114 of the apparatus etc.

(b) Telegrapliic transmission or reception by connecting at 117 the transmitting or receiving arrangement. 1

In another position: telegraphic receptionv or transmission by connecting at 116 the receiving or transmitting apparatus;

111 is the station battery, and'112 a switch for interrupting the battery in order to bring back the arrangementl to normal. This switch may be made a part of 107 by givingl the latter switch a third position. T113 is a; resistance which may be useful in certain cases. 115 is a sensitive and rapid relaycontrolling the apparatus 114.

and is shown diagrammatically in Figure-25.

It renders possible the following operations:

(a) To telephone, if the station is to be used solely for telephony.,

sin

:'(b) To telegraph (receiveortransmit);

the subscriber can by a simple manipulation g arrange the apparatus for this purpose and conversely can bringt'he parts Vinto the tele-v` v phoning position.

shown similar to those in Figure 24. They are given the same reference numbers.

v s 70'*` y (c) To receive a telegraphic comiiiunica-v tion in the absence ofthe subscriber'. Y Y y In Figure 25 a number of meinbersare Iny Figure-25 switch 107" has three posi-` y tions; the lcitt hand-position, which willY be termed position (1) corresponds to the telegraphic tele,ihone-transmission position; the mid position, position (2), which is that shownin the ligure, corresponds to tl'ie receiv.

ing position whether the subscriber is .presentor absent; the right hand position, position 2.

position, corresponding tothe starting position. f

The relay 108 of Figure 24`is replaced by. two relays 108 and 108` whichmay-be provided with as many springs as may be neces- -sary to control the starting'ot all relays and 3) which may advantageously be a return, y

necessary parts; these relays are set by the re- A' lay 118 which is sensitive toalternating curf rent, itself 'attracted either when .with'10ZV ij in the mid positiona call current is sent overaA line 101-102, or when with 107', in the'right hand position, the battery at the central telephone exchange delivers over it.w119 is a reg lay, which may be shunted, suitably-slow acting vas regards release and controlledv relay; 120 which brings the relays 108 and 108,l into y their back position. i

The relay 121 is a relay which is 'suitably-ii.

slowacting as regards attraction and release.

It has for object:

(a) To bring relayA 115 into action onlyv after the disappearanceof the induction e-U fect produced whenthe receiving apparatus j. is being placed in circuit over theA line,and,

this with the-obj ect of not bringing the relay 115 inl its' operative position and of bringingV back the system to normal.

(b) To leave the rarrangement for a short period in a state toieceive an impulse after the completereturn to normal at the nish of a telegraphic communication sent in thel 'absence'of the .subscriber as will be described-i If the subscriber wishes to employ-his inin position (1) To telegraph he placesv the switch in position (3) which starts the system and then brings back to position (2) or to (1), accord-y ing as he' desirestoreceive or to transmit.-

vstrument ortelephoning he places 'the switchl In order to telephoneafter having tele` 5 graphed he takes off the telephone after having placed the switch in position(2). To Atelegraph after having telephoned he re'AIV places'the telephone and places the switch in Vposition (1) orf(2) accordin'gfashe desires to transmit or receive.

To conclude and bring all the .partsbackto normal:

V'(00) After a telegraphic communication (thetelephone being hung up) he places the witch in position (2) and oscillatesthe hook switch or places the key in position (2) and momentarily breaks circuit with the returning switch 112.

After a telephonie communication (the switch being in position he may again hang up the telephone and break the circuit by the return key 112. A subscriber desiring` to receive telegrams in his absence leaves the switch in position-2.

The system is released by operating'relay 118 under the influence of call alternating current from the central telephone exchange and the station is ready to receive after operation of relays 108, 108, 119 and 121.

Then a caller again hangs up the telephone (i. e.openshis circuit) ,the resulting inductive effect vat the called apparatus brings the armature of relay 115 into its operative position, thus unsetting relay 119 at the end of atraction of a second. Relay 120is then operated and breaks the feed of the relays 108 and 108 which come into the back positionand open the subscriber-s circuit;'the breaking of the circuit induces a current in relay 115 and brings it to its back position. The relay 120 is then broken and returnsto its backposition. The relay 121, slow acting as regards release, comes into its back position a moment after relay 115 has itself come into-the back position. In all the preceding explanations it has been supposed that the inducing and induced currents in all the appertaining circuits required :tor a telegraphic communication were suitably directed to ensure the return of the armature of the sensitive and rapid relay 115 upon its return contact. A proper positioning of the circuits leads to subjecting relay 115 to impulses of reverse direction according as itis desired to transmit or receive and therefore to reverse the currentl direction in this relay.

Some receiving and transmitting arrangements may'require the addition of springs and contacts supplementary to switch 107 or 107 in order to avoid all abnormal operation of the relays. f1`hese requirements may easily be foreseen according to the circumstances in view'but itshould not be lost sight of that in certain cases the making or the breaking oi' some -contacts should take place in a perfectly predetermined chronological order.

lVhere at the subscribers'stationthere is a telegraphic apparatus employing positive and negative currents the relay selected should be able to transmit reversals'of cnrrent caused by the key of the 'telegraphic apparatus employed into breaks and'makes.

(C) 1n all theprecedin'g there has been nresup'posed thatthere is at the subscribers station a battery for locally 'feeding .an

electrorinagnet of thev telegraphic apparatus employed.

An arrangement will now be described by which such local battery may be eliminated, the necessary current for operating the station being pro-vided by the central telephone exchange battery just as when the telephone is used.

The principle of the arrangementis` illustrated diagrammaticallyin Figures 26 and 27. .Figure 26 shows the receiving arrangement and Figure 27 the transmitting arrangement.

Vhen receiving the resistance ofthe loop line shouldnot vary as otherwise reception is disturbed, also the current vfeeding the telegraphic ap} 3aratus-.should be Vbroken and made at every revolution. The-presence ot' a compensating impedance and of two relays permits thedesired result tobe obtained.

Figure 26`sh0ws a '.station arranged .for telephonie reception; in 'this figure 201 is the income tofthe-subscribers line, 202 the receiving apparatus which allows the functioning of the sensitive and rapid relay 203 under the action of the currents induced over 'the subscribers line. 204 is the electro-inagnet of'the telegraphic apparatus at the station; 205theffswitch arrangement of the apparatus (for example the key `for Morse vtelegraphy,` contacts vwith the Baudet apparatus or theteletypeof theMorkrum Gompany, etc. ;f 206 a'resistance which may be usefull 1n certainl cases ;A 204 the' compensatin limpedance over which the line loops when it 4 is not looped over 204; 208 and 209 Yare two rapidrelays arranged either in shunt on 201i and 207 (it they have a high resistance as illustrated) -or vin series respectively with 20aL and 207ifztheiriresistance issm-all.

The armatures of relays 208 and209 come upon their working contact when these relays are-traversed bya current. The induced receiving currents'passing over line 201 have for effect-to 'bringthe armature of relay 208 upon one orotheroffthese contacts. This armature movement prepares for breaking one of the two circuits 204--208 or 207-209; the breaking bein gr effected by the relays 209 `and 208.

In some cases one ot' the two relays 208, 209 may be eliminated; for example relay 208 may alonebe employed when the induced current, which brings relay 203 upon its working contact and causes the breaking ot the 'circuit of the electromagnet 20-1 `of the apparatus, is opposite in direction to the Jfeed currentof the station which is supplied by the battery atthe telephone central exchange.

be looped over the manipulating switch 105 and the electromagnet 104 of the telegraphic apparatus.

The principle of the-switching apparatus tere'd at the switchwhen the station is not v intended to receive telegrams 1n the absencev of the subscriber and should be provided with some additional relays while in the contrary case the connections .should be modilied.v l There willbe described as illustrations two methods corresponding to the two cases aforesaid. Q

1.v Station with manual switching not ca- V pable o'l" vreceiving telegrams in the absence ZULL the subscriber. y

T he `circuit is illustrated in Figure 28 and Vcorresponds'to aca-se where one onlyofA the two relays 2,08 or 209 shown in Figure 27 ar-e employed.V When relay 208 for example is '"*mployed,-asin Figures 26, 27 Aand 28, the

same parts bear the same numbers of referente-210 is the telephone hook switch,`21l the telephone apparatus, 212 the condenser ligure is the telephoning position, the mid position the telegraph receiving position, the

right hand positionthe telegraph transmit-v ting position. "f" The switch may be provided with other springs and contacts required. to bring the parts into operation. ln the figure one ymember only, a motor 215 for example, is 'supyposed to be required; when switch 214 is 40'nthe telephoning position the station becomes an ordinary telephone station; when it is in the mid position or in the right Vhand position telegrams can be transmitted or received and the arrangement shown in Figure '"26 or that shown in Figure 27 `will be formed. 2. A station with automatic switchingffor allowing telegrams to be received in the absence of the subscriber. The arrangement'is l -shown diagrammatically in Figure 29. L The parts already shown in Figures 26, 27 and 28 are marked with the same numbersoi" reference 216, 217 and 218 are relays whose functions are the same as those oft relays 118.v 108 and 108" shown in Figure 25; re-

Fay 217 however has one less spring as the electro magnet is no longer fed'locally and it should be made suitablyslowfacting for allowing` relay 221 the time'to become set.

u The function of relay 216 is to release the '-etting of the relays 217 and afterwards ot relays 218; 218 is a relay/"slow acting as regards release which controls the-feed of relay 2211(retarded'as regards release);A relay 220 is `made slow acting as regards .attraction Y (ii/ Lind-has for its object to allow the setting of position.

relay 221 onlyif the relay 216 has been operated. Relay 217 is axed and accessorily 'acts to balance relay 219 so that the assemblage 204, 219,1nay be compensated by the assemblage 207, 220; the relay 222 is slow acting as regards attraction and release and is intended-(just as the relay 221 shown in Figure 21) y (a) To connect the rapid and sensitive rcllay 203 over the secondary of 202 (i. e. to allow it'to come into action) only after the inductive 'effect corresponding to the closing of a circuit 201 over the arrangement 'at the telegraphic station, has passed.

(bf) `To connect relay 203only when the inductive effect, corresponding to the'breaking--'ofcircuit 201 b y the back positioning of relay 218, shall have brought 'relay 203Vinto its back postion. This relay 222 is only useful", as will be seen, where the direction of the induced current, bringing relay 203 upon the contact and which closes circuit 1 over the relay' 207-220, is the same as lthat of the feed current for line 201. If-the direction of the induced current is reversed,I relay 222 is not wholly necessary. The springs and doublecontacts 226 and 226 shown in Figure in the igure on the left hand'contact) owing 24 on the right of relay 221 may bei suliicient Y 'to-bring' relay 203 to itsback position, e.

toasuitable direction of the current given Y by battery 224 whilecircuit 201 is; broken by the opening of relay 218, a break which from this fact remains without effect upon relayA 203. Switch 223 is an optional,r general 'cir'- cuit ybreaking lswitch of battery 224;switch 214" is'a three-position switch. The left hand `position correspondsto the tel'ephoning and telegraph transmission position, andthe 'mid' position, that shown in the gure, to the telegraph reception position, which is effective j whether the subscriber is Vpresent or absent,

and the right hand position to Vthe starting position ,'(it cannot be for the return position) When the subscriber wishes to use his sta# tion as an ordinary telephone stationV -he places switch 214 in the left hand position. 'Ifh e desires to telegraph he places the switch in the ri'ghthand position and brings it into the mid position or the left hand position according as he desires to receive or transmit. l'

Before telegraphing or telephoning, and l after having telephoned or'telegraphed, he may desire to bring his switch into the mid To bring all may operate as has been set out under (B) by manipulating .either the hooks'witch 210 or the switch 223 or also a switch (a return Vswitch for example) substituted for key 223 which will momentarily earth relay 221 which controls the return to the back position by attracting the wing 225. A M In order that the station may receivea' telparts to the back position he egram in the absence of the subscriber switch 2141- should be in the mid position; the relay 216, attracted by the effect of alternating call current, causes the attraction of 217, and then of 218, the relays 219 and 222 operating. Owing to the slow action of these relays, relay 203 will remain upon the left hand contact and is ready to receive.

Then the calling subscriber has finished his communication he opens his circuit which brings relay 203 upon the right hand contact so causing first the attraction of 220, then the release of 21.9, then the operation of 221, then the unsetting of 218, afterwards of 217, then'of 220, 221 and 222 ;the induction effect resulting from thebreaking of `thecircuit either through 218 or through the action of the double contacts 226 a-nd226 of 221, has the function of bringing 203 upon its back contact (left hand contact). rIhe Whole arrangement is then brought Vinto the normal position.

In some cases according to the call method employed at the telephone exchange it will be possible to eliminate battery 225 at the subscribers station for receiving in his absence. To ensure that in this case relays 216-217- 218--221 shall operate the feed wire, connected in Figure 29 to the battery it is connected to a suitable point of the wire of line 201 which itself is connected at the central exchange to the free pole of the battery; the other pole is earthed.

Inv most cases a subscriber can avoid using his battery when such ispresent by connecting the feed wire in the manner above set out For operating a switch (which replaces switch 223 and which has a function differing from this) he may during his absence disconiiect both the feed wire from the line wire and connect it to its battery as illustrated in Figure 24.

It should be well understood that-the arrangements illustrated are not exhaustive and that the .feed circuit may easily be adapted for employment Whenever it is desired to feed a subscribers station with current from a central battery at the central telephone exchange without the'use of a local battery with a view of telegraphing even when such telegraphing means is based upon a` system which differs from that set out in the specification.

Finally there may be provided with advan- `tge'in the receiving arrangements or transmitting arrangements above described an amplifying arrangement based for example upon the use of three electrode valves. In tais case the receiving relays above described which control either the retransmission circuit (at the mixed position) or to the telegraphic receiving apparatus (at the subscribers station) are themselves controlled by the amplifying arrangement.

VVhat-I {claim is l 1. In a telephone exchange system having a central station and subscribers substations with linecircuitsconnecting them, the combi- .nation of link circuits for interconnecting the Asaid lines in pairs comprising relay means responsive to a break in one line circuit to produce a current impulse in the other line circuit, means at each substation respective to said impulses and means at each subscribers station for varying the electrical condition of the associated line circuit which comprises a relay non-responsive to electrical variations produced at either subscribers station.

2. In a telephone exchange system having a central station and subscribers substations with line circuits connecting them, the Combination of link circuits for interconnecting the said lines in pairs comprising an electromagnetic relay energized through a differen-A tial inductive coupling connected Withthe line thro-ugh the link circuit and to an artificial line and to the link circuit for causing current variations originating in the line to actuateV the relay and cause current variations originating in the link circuit to have no effect on the relay and means at each substation responsive to said last mentioned current variations.

3. In a telephone exchange system having a central station and subscribers substations with line circuits connecting them, the combination of a` special link circuit arranged to be connected with a pair of said line circuits, means interconnecting said link and line circuits, relay meansY in the link circuit operated by current impulses induced by an opening and closing of one line circuit to produce an amplified current impulse in the other line circuit, means at each substationv responsive to said impulses, and means at each substation for opening and closing its line circuit. h

t. The system claimed in claim 3 with means rendering the relay means non-responsive to said amplified current impulses.

5. In a telephone exchange system having a central station and subscribers substations with line circuits connecting them, mea-ns for transmitting telegraphic communications between t-he subscribers substations at the will of the subscriber, comprising the combination of link circuits for non-metallically interconnecting the said'liucs in pairs comprising means responsive to a break in one line circuit to producea current impulse in the other line circuit, and means at each substation responsive to said impulses, each said responsive means consisting of a relay shunted by an inductance.

6. T he system clai-med in claim 5 in which the inductance shunting each rela-y constitutes the secondary winding of atransformer.

7. In a telephone exchange system having a central station and subscribers stations Cil with line circuits connecting them, the com-l bination of a link circuit arranged to be interposed in the connection between two lines and comprising a battery, an electro-magnetic v relay having a contact operable upon energization of the relay to connect the battery across the link circuit, a. transformer having one secondary winding and two primary windings, the secondary winding being connected in the energizing circuit of the relay for energizing the same, an adjustable artilicial line, said primaries being so connected that current coming in over the link circuit will traverse the said primariesin series with each other and the artificial line while current passing out from the said battery over said link circuit will traverse the said primary windings in multiple one out over the link circuit and one through the artificial line, together with receiving means at each subscribers station responsive to currents induced in its associated line by the connection oi' said battery across the link circuit.

8. The combination claimed in claim 7 in l which the voltage of the link circuit battery is adjusted to produce an outgoing impulse stronger than the originating or incoming impulse.

9. The combination claimed in claim 7 in which the said relay contact is shunted by a resistance to prevent arcing.

10. 'Ihe combination claimed in claim 7 i with audio choke coils connected between the terminals of the link circuitbattery and the link circuit. Y

11. The combination claimed in claim 7 in which the relay is provided with a normal contact and an additional battery is provided and connected across said link circuit through said normal contact.

12. The combination claimed in claim 7 in which the relay is provided with a normal contact; a pair of audio choke coils; and an additional battery connected across the link circuit through the normal Contact and said pair of audio choke coils.

13. The combination claimed in claim 7 with means for passing the telephonie currents past the battery.

In testimony that I my invention I have signed my name this 8th day of September, 1924.

PAUL JOLY.

claim the foregoing as 

